Looking at the past to infer into the future: Thermal traits track environmental change in Liolaemidae<sup>*</sup>

Ibargüengoytía, Nora R.; Medina, Marlín; Laspiur, Alejandro; Qu, Yan‐Fu; Peralta, S. César Augusto Ramirez; Sinervo, Barry; Miles, Donald B.

doi:10.1111/evo.14246

Cited by 15 publications

(22 citation statements)

References 140 publications

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“…In reptiles and other tetrapods, a high phylogenetic signal is associated with morphological traits (De Meyer et al., 2019; Pincheira‐Donoso et al., 2008; Tulli et al., 2009, 2011), performance traits may also show high phylogenetic signal (De Meyer et al., 2019). Thermal traits typically show mixed results, in some cases with low phylogenetic signal (Blomberg et al., 2003; Diele‐Viegas et al., 2018; Ibargüengoytía et al., 2021; Moreno Azócar et al., 2013). Our results indicate a strong phylogenetic pattern, probably as a result of a static evolution of thermal biology and physiology (Andrews et al., 1999).…”

Section: Discussionmentioning

confidence: 99%

The role of climate and maternal manipulation in determining and maintaining reproductive mode in Liolaemus lizards

et al. 2022

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Evolutionary transitions in life-history strategies, such as the shift from egg-laying to live birth (viviparity) are of great interest to evolutionary biologists. In squamate reptiles, several hypotheses have been proposed to explain viviparity including the cold climate hypothesis, maternal manipulation hypothesis, hypoxia hypothesis, and several others. We used two approaches: first we studied 45 species of Liolaemus, a genus where nearly 50% of species are viviparous, using a diverse ecophysiological dataset to examine the cold climate and maternal manipulation hypotheses. We collected environmental thermal data (accounting for elevational differences among species), physiological traits including preferred body temperature and its coefficient of variation as an indicator of precision in thermoregulation. Additionally, we collected standard metabolic rates for 23 of the 45 species. In one clade (the darwinii group of species) with both reproductive modes, we ran our second approach. We tested for differences in thermal physiology and metabolic rates between viviparous and oviparous species during pregnancy and non-pregnancy periods. The cold climate hypothesis received strong support because viviparous species occur in sites with colder air temperatures (including areas at both higher elevations and latitudes) compared with oviparous species. Our detailed analysis showed that the maternal manipulation hypothesis also is supported; pregnant viviparous females show lower variation in their selected temperature. Our evidence suggests that the Andean orogeny is likely to have played a key role in the diversification of Liolaemus lizards and the evolution of viviparity in this clade may have been driven by a variety of physiological advantages accrued at different stages of embryogenesis and over evolutionary time. Thus, historical climate changes may have led to egg retention and may have been accompanied by other adaptations such as thermoregulation precision.

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Section: Discussionmentioning

confidence: 99%

The role of climate and maternal manipulation in determining and maintaining reproductive mode in Liolaemus lizards

et al. 2022

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“…In this issue, Ibargüengoytía et al. (2021) examined several species across the genera Ctenoblepharys , Liolaemus , and Phymaturus , in the family Liolaemidae, to understand the main biotic and abiotic variables shaping species’ thermal traits.…”

Section: Figurementioning

confidence: 99%

“…To quantify different lizard species’ ability to regulate body temperature, Ibargüengoytía et al. (2021) measured lizards’ active body temperatures in their natural habitats. They measured lizards’ preferred body temperature in the lab (Fig.…”

Section: Figurementioning

confidence: 99%

“…In the lizard family Liolaemidae, the geological events posit ecological constraints and opportunities, leading to a high diversity of natural history traits, including reproductive mode, substrate affinity, and body temperature. In this issue, Ibargüengoytía et al (2021) examined several species across the genera Ctenoblepharys, Liolaemus, and Phymaturus, in the family Liolaemidae, to understand the main biotic and abiotic variables shaping species' thermal traits.…”

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Digest: Predicting the future by learning from the past in lizards’ thermal traits*

Tsai

2021

Evolution

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How do traitsevolve on a global scale? Ibargüengoytía et al. provide a framework for understanding the evolutionary history of thermal traits in a broadly diverse lizard family Liolaemidae and find that the lizards’ body temperature has evolved following the change in air temperature over the past ∼20,000 years, while the preferred body temperature for physiological functions has evolved at a lower rate. This difference results in a higher buffer to respond to global climate change, in particular for viviparous species, which usually show lower body temperatures in their natural environments. Oviparous species from the arid environments are at higher risk of extinction in the family Liolaemidae.

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“…For example, if the projected T a can increase 1.2 °C to 4 °C by 2050, many lizard populations could increase their metabolic rates 49 in detriment of their longevity 47 . Likewise, if climatic disturbances prompt shifts in the thermal environments, many lizards may reduce the proportion of time outside their shelters performing social, reproductive, feeding or basking activities (hours of activity, h a ) and increase the time spent in shelters (hours of restriction, h r ; sensu Sinervo et al 13 ) having a negative impact on growth rates, and phenology of populations, resulting in an enhanced risk of extinction 50 , 51 . This conclusion has been documented in Mexican lizards and Sinervo et al 13 predicted that many other species have higher probabilities of extinction when forced to have fewer hours of activity to reach their optimal body temperatures.…”

Section: Introductionmentioning

confidence: 99%

Vulnerability to climate change of a microendemic lizard species from the central Andes

Laspiur

Santos

Medina

et al. 2021

Sci Rep

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Given the rapid loss of biodiversity as consequence of climate change, greater knowledge of ecophysiological and natural history traits are crucial to determine which environmental factors induce stress and drive the decline of threatened species. Liolaemus montanezi (Liolaemidae), a xeric-adapted lizard occurring only in a small geographic range in west-central Argentina, constitutes an excellent model for studies on the threats of climate change on such microendemic species. We describe field data on activity patterns, use of microhabitat, behavioral thermoregulation, and physiology to produce species distribution models (SDMs) based on climate and ecophysiological data. Liolaemus montanezi inhabits a thermally harsh environment which remarkably impacts their activity and thermoregulation. The species shows a daily bimodal pattern of activity and mostly occupies shaded microenvironments. Although the individuals thermoregulate at body temperatures below their thermal preference they avoid high-temperature microenvironments probably to avoid overheating. The population currently persists because of the important role of the habitat physiognomy and not because of niche tracking, seemingly prevented by major rivers that form boundaries of their geographic range. We found evidence of habitat opportunities in the current range and adjacent areas that will likely remain suitable to the year 2070, reinforcing the relevance of the river floodplain for the species’ avoidance of extinction.

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Looking at the past to infer into the future: Thermal traits track environmental change in Liolaemidae^*

Cited by 15 publications

References 140 publications

The role of climate and maternal manipulation in determining and maintaining reproductive mode in Liolaemus lizards

The role of climate and maternal manipulation in determining and maintaining reproductive mode in Liolaemus lizards

Digest: Predicting the future by learning from the past in lizards’ thermal traits*

Vulnerability to climate change of a microendemic lizard species from the central Andes

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Looking at the past to infer into the future: Thermal traits track environmental change in Liolaemidae*

Cited by 15 publications

References 140 publications

The role of climate and maternal manipulation in determining and maintaining reproductive mode in Liolaemus lizards

The role of climate and maternal manipulation in determining and maintaining reproductive mode in Liolaemus lizards

Digest: Predicting the future by learning from the past in lizards’ thermal traits*

Vulnerability to climate change of a microendemic lizard species from the central Andes

Contact Info

Product

Resources

About

Looking at the past to infer into the future: Thermal traits track environmental change in Liolaemidae^*